Fractions in Crude Oil (WJEC GCSE Chemistry)
Revision Note
Fractions in Crude Oil
The petrochemical industry is hugely important for modern society and development
The fuels that are used in most modern methods of transport (cars, trains, airplanes etc.) are all based on oil products
Polymers, lubricants, solvents, detergents and adhesives are all products that are obtained from crude oil
The array of fractions in crude oil and the huge range of compounds we can produce from them all stem from carbon’s ability to form multiple strong covalent bonds with itself leading a huge number of organic compounds
The main fractions and their uses are described in the following table:
Table to show the uses of fractions from crude oil
Fraction | Use |
|---|---|
Petroleum gases | Fuel for domestic heating / cooking |
Gasoline / petrol | Fuel for cars |
Naptha | Making chemicals |
Kerosene | Jet fuel |
Diesel | Fuel for cars and some trains |
Lubricating oil | Reduces friction in machinery |
Fuel oil | Fuel for ships and power stations |
Bitumen | Surfacing roads and roofs |
Examiner Tips and Tricks
You must know the specific uses for each fraction!
Trends in Properties of Fractions
Some properties of hydrocarbons depend on the size of their molecules
These properties include:
Viscosity (the ability of the substance to flow)
Flammability (how easily the substance burns)
Colour
Cleanliness of burn
These properties influence how hydrocarbons are used as fuels
Boiling Point
The bigger the hydrocarbon, the higher it's boiling point
This is because the size of the intermolecular forces increases requiring more energy to overcome them
Graph to show the trend in boiling points of hydrocarbons
As the size of the hydrocarbon increases, the boiling point also increases
Viscosity
Viscosity refers to the ease of flow of a liquid
The opposite of high viscosity is to say a liquid is runny
High viscosity liquids are thick and flow less easily
Viscosity also increases with increasing chain length
This is also due to the increased intermolecular forces of attraction as molecular size increases
Longer chain hydrocarbons would not be as useful as fuels for cars as they would be too thick and clog the engine
Increased viscosity means that longer chained alkanes are useful as lubricants in machinery as they are less likely to burn and function to reduce friction between moving parts
Flammability
Molecular size again influences the ease of ignition or flammability of hydrocarbons
Smaller hydrocarbon molecules are more flammable and are easier to ignite than larger molecules
This makes them very useful as fuels, releasing large amounts of energy when they burn
Colour
The colour of the hydrocarbons within each fraction change as the size increases:
The smaller fractions formed at the top of the column are colourless
The middle fractions range from brown to yellow in colour
The bottom fraction is black
Cleanliness of Burn
Shorter hydrocarbons burn with a cleaner bluer flame
Larger hydrocarbons burn with a more yellow, smoky flame
This is due to there not being enough oxygen to react with all of the atoms in the longer hydrocarbon
Examiner Tips and Tricks
It is important to know how these trends change going down the fractionating column.
Going down the column:
The boiling points of the fraction increases
The flammability of the fractions decreases
The viscosity of the fractions increases
The colour of the fractions becomes darker
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